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核电温排水影响范围数值模拟与原型观测对比研究OA

A comparative study on numerical simulation and prototype observation of thermal effluents from a nuclear power plant

中文摘要英文摘要

运行电厂温排水原型观测是目前国内推行用于温排水数学模型精度校验的主要手段.原型观测温度场包含了复杂本底水温时空分布,而常规温排水数值模拟假定均一本底水温,本底取值对验证精度的影响还不明确,亟待开展相关研究.本文以某核电厂址为例,建立了基于实时气象和水文条件的工程海域动态水温模型,利用卫星遥感、航空遥感和水面测量等多源观测数据对模型进行验证,计算与实测结果吻合良好.在此基础上分析了本底水温取值对温升场提取影响,以及扩散系数、散热系数和风场等关键因素取值对数值模拟结果的敏感性.结果表明:本底水温分布对案例厂址温升场提取存在明显影响,均一本底取值会造成温升场夏季偏大、冬季偏小的相反趋势;海域风场对温升场形态和范围均存在显著影响;扩散系数和散热系数取值对温升场结果影响存在区别,扩散系数对4℃温升区影响更大,散热系数对1℃温升区影响更大.本研究可为温排水模拟精度提升和温排水影响评价方法改进提供重要参考.

Prototype observation of thermal discharge from operating power plants is the primary means adopted in China for verifying the accuracy of thermal-discharge numerical models.However,the temperature fields obtained from such prototype observations incorporate complex background water temperatures,while the models usually assume a uniform background temperature.Since the impact of baseline values on verification accuracy is unclear,there is an urgent need to carry out relevant research.This paper takes a certain nuclear power plant site as an example.The water temperature variation processes in the project sea area through a real-time surface heat flux simu-lation approach based on spatial and temporal varied metrological and hydrological conditions.The numerical model is then validated using diverse in-situ observation data sources,including satellite remote sensing,airborne remote sensing,and surface water measurements.The calculated temperature results are in good agreement with the measure-ments.Then the impact of the background water temperature value on the extraction of the temperature rise field is analyzed,as well as the sensitivity of numerical simulation results to the values of the diffusion coefficient,heat dissi-pation coefficient,and wind field.The results show the background temperature distribution has obvious effect on the observed temperature rise determination.Using a uniform background value will result in an opposite seasonal trend in the temperature rise field—overestimation in summer and underestimation in winter.The marine wind field has the greatest impact on the pattern and covered area of the temperature rise field.The diffusion coefficient and heat dissipa-tion coefficient show different in their sensitivity to the calculated temperature rise result,as the diffusion coefficient has a greater impact on the 4℃temperature rise zone,while the heat dissipation coefficient has a greater impact on the 1℃temperature rise zone.This study provides an important reference for enhancing the accuracy of thermal dis-charge modeling and promoting thermal discharge impact assessment.

陈小莉;张冬阳;袁珏;段亚飞

中国水利水电科学研究院,北京 100038中国水利水电科学研究院,北京 100038中国水利水电科学研究院,北京 100038中国水利水电科学研究院,北京 100038

建筑与水利

温排水背景水温原型观测数值模拟风场

thermal dischargebackground water temperatureprototype observationnumerical simulationwind field

《水利学报》 2026 (2)

217-231,244,16

中国水利水电科学研究院"五大人才"计划课题(HTHY0145B03202100000)国家自然科学基金项目(42206214)

10.3724/j.slxb.20250292

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